Cara Gallo scite author profile

Cara Gallo

3Publications

1Citation Statement Received

110Citation Statements Given

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University of Victoria

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Mechanism of a Disassembly Driven Sensing System Studied by Stopped-Flow Kinetics

Gallo¹,

Thomas²,

Selinger³

et al. 2021

Preprint

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<div> Mechanistic studies were carried out on the kinetics for the assembly of a DimerDye (DD12) and the binding of the monomeric DimerDye (DD1) with nicotine in aqueous buffer and artificial saliva. DD12 is non-fluorescent, while monomeric DD1 and DD1-nicotine fluoresce. Binding isotherms were determined from steady-state fluorescence experiments. The report includes measurements of the steady-state fluorescence at pHs 2.2, 6.3 and 12.1, and stopped-flow kinetic data for the homodimerization forming DD12 and DD1-nicotine formation in buffer and artificial saliva. Analysis of the homodimerization kinetics led to the recovery of the association and dissociation rate constants for DD12. These rate constants were used in the global analysis for the coupled kinetics for DD1-nicotine formation, which led to the determination of the association and dissociation rate constants for nicotine binding to DD1.</div>

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Mechanism of a Disassembly-Driven Sensing System Studied by Stopped-Flow Kinetics

et al. 2021

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We carried out steady-state and stopped-flow photophysical measurements to determine the kinetics of a discrete disassembly driven turn-on fluorescent system. On and off rates for both DimerDye1 assembly and nicotine binding were determined. Relative rates for these competing processes provide insight on how this system can be optimized for sensing applications. Kinetics studies in artificial saliva showed that moving to more complex media has minimal effects on the sensing ability of the system.

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Mechanism of a Disassembly Driven Sensing System Studied by Stopped-Flow Kinetics

Gallo¹,

Thomas²,

Selinger³

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

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Cara Gallo

Mechanism of a Disassembly Driven Sensing System Studied by Stopped-Flow Kinetics

Mechanism of a Disassembly-Driven Sensing System Studied by Stopped-Flow Kinetics

Mechanism of a Disassembly Driven Sensing System Studied by Stopped-Flow Kinetics

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